多相流、射流喷雾、光学诊断
SCI 论文:
[1] Qiu S., Wang S., Zhang Y., et al. Dense-field spray droplet size quantification of flashing boiling atomization using structured laser illumination planar imaging technique[J]. Fuel. 2023, 335: 127085.
[2] Qiu S., Yao B., Wang S., et al. Droplet characteristics of multi-plume flash boiling spray evaluation using SLIPI-LIEF/Mie planar imaging technique[J]. Energy. 2023: 128876.
[3] Qiu S., Xiao D., Zhang X., et al. Experimental investigations of the phase change impacts on flash boiling spray propagations and impingements[J]. Fuel. 2022, 312: 122871.
[4] Xiao D., Qiu S., Hung D., et al. Evaporation and condensation of flash boiling sprays impinging on a cold surface[J]. Fuel. 2021, 287: 119423.
[5] Xiao D., Qiu S., Zhang X., et al. Dynamic behavior and mechanism analysis of tip wetting process under flash boiling conditions[J]. Fuel. 2022, 307: 121773.
[6] Wang S., Qiu S., Zhang Y., et al. In-nozzle multi-phase flow patterns in flash boiling atomization and their impacts on external sprays[J]. Experiments in Fluids. 2023, 64: 48.
[7] Wang S, Zhang Y, Qiu S, Hung DL, Li X, Xu M. Investigation on cavitation enhancement on flash boiling atomization using two-dimensional slit nozzles. Energy. 2024: 130720.
[8] Wang S., Xiao D., Qiu S., et al. The effects of nozzle taper angle on in-nozzle flow and nozzle tip-wetting under flash boiling conditions[J]. Fuel. 2022, 329: 125348.
[9] Wang S., Yang S., Qiu S., et al. Mechanism of flash boiling bubble breakup based on rim-like structure[J]. Fuel. 2022, 329: 125345.
[10] Wang S., Yao B., Qiu S., et al. Investigation on flash boiling phase change characteristics of two-dimensional slit nozzles using backlit light attenuation with multi-component fuels[J]. Fuel. 2024, 357: 129835.
[11] Li X., Xu Q., Qiu S., et al. Investigations on the impact of phase change on single plume flash boiling radial expansion and drop-sizing characteristics[J]. Applied Thermal Engineering. 2022, 202: 117911.
[12] Li X., Yang S., Qiu S., et al. Investigation on flash boiling spray fluctuations in the near-field and far-field under gasoline direct injection related conditions[J]. Applied Thermal Engineering. 2020, 179: 115655.
[13] Li X., Wang S., Yang S., Qiu S., et al. A review on the recent advances of flash boiling atomization and combustion applications[J]. Progress in Energy and Combustion Science. 2023, 99: 101119.
[14] Wang S., Li Y., Zhang Y., Qiu S., et al. Impacts of flash boiling plume interactions on atomization evaluated using two-dimensional optical slit nozzles[J]. Applied Thermal Engineering. 2024: 123314.
[15] Wang S., Li Y., Zhang Y., Qiu S., et al. Liquid film burst caused by perpendicularly blowing gas jet[J]. Experimental Thermal and Fluid Science. 2024: 111228.
[16] Wang S., Cao J., Xiao D., Qiu S., et al. Spray Impingement Film Analysis: Characteristics Evaluation and Corresponding Simulation Method[J]. Atomization and Sprays. 2023, 33.
[17] Li X., Gao Y., Yao B., Cui M., Qiu S., et al. Fuel modification flash boiling atomization and combustion in reciprocating engines[J]. Journal of the Energy Institute. 2023, 111: 101268..
[18] Wang S., Qiu S., Li X., et al. Modeling non-monotonic variation of plume angle with superheat index of flash boiling spray[J]. Energy. 2024, 306: 132515.
论文(非SCI):
[1] 刘朝, 邱舒怿, 黄红梅, 郭萍, 霍二光. 吸热型碳氢燃料正辛烷的热分解机理. 材料导报. 2019;33:1251-6.
[2] 姚博炜, 黄勇, 邱舒怿, 刘高领, 尹曦林, 李雪松. 基于多种光学诊断的汽油直喷喷油器喷雾特性试验研究. 车用发动机. 2023:1-8.
[3] Li J, Li L, Xiao R, Liang Y, Qiu S, Li X. Macroscopic and Microscopic Characteristics of a GDI Spray Under Various Thermodynamic Conditions. International Journal of Automotive Manufacturing and Materials. 2023:1.
会议论文:
[1] Qiu S., Wang S., Cui M., et al. Research Progress on Flash Boiling Atomization and Combustion Mechanism [C]. The 60th Japanese Combustion Symposium. Tokyo,2022
[2] Qiu S., Wang S., Zhang Y., et al. Dense-field Spray Droplet Size Quantification of Flashing Boiling Atomization using Structured Laser Illumination Planar Imaging Technique[C]. ILASS-Asia 2023. Jeju, Korea,2023
[3] Qiu S., Wang S., Zhang Y., et al. Dense-field spray droplet size quantification of flashing boiling atomization using structured laser illumination planar imaging technique[C]. ILASS Americas 2023. Albuquerque, New Mexico,2023
[4] Qiu S., Wang T., Li K., et al. Experimental Investigations of Flash Boiling Spray Wall Impingement Using Laser-Induced Exciplex Fluorescence[C]. Powertrain Modelling and Control, Testing, Mapping and Calibration Conference 2022. Loughborough University, United Kingdom,2022
[5] Qiu S., Xiao D., Zhang X., et al. Experimental investigations of the phase change impacts on flash boiling spray propagations and impingements[C]. ILASS-Europe 2022. Virtual,2022
[6] Qiu S., Xiao D., Zhang X., et al. Experimental investigations of the phase change impacts on flash boiling spray propagations and impingements[C]. ILASS-Asia 2022. Indore, India,2022
[7] Qiu S., Xiao D., Zhao Z., et al. Investigation of Fuel Injector Tip Wetting Using Laser-induced Fluorescence under Flash Boiling Conditions[C]. 15th Triennial International Conference on Liquid Atomization and Spray Systems. Edinburgh, UK,2021
[8] 邱舒怿, 李凯翔, 王上宁, 等. 相变对闪沸喷雾发展和撞壁过程影响的实验研究[C]. 中国计量测试学会多相流测试专业委员会第13届年会. 中国,杭州,2023
[9] Li K., Xiao D., Wang S., Qiu S., et al. Experimental investigations of nozzle pitch circle impact on tip wetting[C]. ILASS-Asia 2022. Indore, India,2022
[10] Wang S., Qiu S., Yang S., et al. Markov Chain and Monte Carlo predictions for light multiple scattering applications. Proceedings - 2019 2nd World Conference on Mechanical Engineering and Intelligent Manufacturing, WCMEIM 20192019. p. 451-455.
[11] Wang S., Qiu S., Zhang Y., et al. In-nozzle multiphase flow patterns in flash boiling atomization and their impacts on external sprays[C]. ILASS Americas 2023. Albuquerque, New Mexico,2023
[12] Wang S., Qiu S., Zhang Y., et al. Multicomponent Fuel Flash Boiling Phase Change Characteristics in Twodimensional Slit nozzles[C]. ILASS-Asia 2023. Jeju, Korea,2023
[13] Xiao D., Qiu S., Hung D., et al. Evaporation and condensation of flash boiling sprays impinging on a cold surface[C]. ILASS-Asia 2020. Zhenjiang, China,2020
[14] Xiao D., Qiu S., Wang T., et al. Experimental investigations of injector internal parameters impact on tip wetting using Laser-induced Fluorescence[C]. 15th Triennial International Conference on Liquid Atomization and Spray Systems. Edinburgh, UK,2021
[15] Xun G., Qiu S., Wang S., et al. Droplet Characteristics of Multi-plume Flash Boiling Spray Evaluation using SLIPILIEF/Mie Planar Imaging Technique[C]. ILASS-Asia 2023. Jeju, Korea,2023
[16] Zhang X., Xiao D., Qiu S., et al. Influence of Different Injector Structures on Tip Wetting by Visualization Method[C]. 15th Triennial International Conference on Liquid Atomization and Spray Systems. Edinburgh, UK,2021
[17] 王上宁, 邱舒怿, 张亦嘉, 等. 闪急沸腾喷雾膜泡爆裂初次破碎机理的实验研究[C]. 中国计量测试学会多相流测试专业委员会第13届年会. 中国,杭州,2023
[18] 肖迪,邱舒怿,李雪松, 等. 闪沸喷雾撞壁低温壁面的蒸发与冷凝特性研究[C]. 2020 年中国多相流测试学术会议. 吉林省吉林市,2021
[19] 张亦嘉, 王上宁, 邱舒怿, 等. 闪沸状态下喷嘴锥角对喷嘴内流及尖端湿 壁现象的影响[C]. 中国计量测试学会多相流测试专业委员会第13届年会. 中国,杭州 2023
[20] Zhang Y., Wang S., Qiu S., et al. Investigation On Cavitation Enhancement On Flash Boiling Atomization Using Two- Dimensional Slit Nozzles[C]. 16th Triennial International Conference on Liquid Atomization and Spray Systems. Shanghai, China,2024
[21] Wang S., Li Y., Zhang Y., Qiu S.,et al. Liquid Film Burst Caused By Perpendicularly Blowing Gas Jet[C]. 16th Triennial International Conference on Liquid Atomization and Spray Systems. Shanghai, China,2024
[22] Qiu S., Wang S., Zhang Y., et al. Quantitative experimental study on plume-to-plume interference of flash boiling sprays[C]. 16th Triennial International Conference on Liquid Atomization and Spray Systems. Shanghai, China,2024
专利:
[1] 邱舒怿, 陈红旭, 冉明矗, 杨仲卿,一种低浓度VOCs气体的配气实验系统及其配气方法[P]. CN107715712B, 2020.(已授权)
[2] 许敏,李雪松,肖迪,邱舒怿,袁志远,王森,徐宏昌,一种壁面可替换的温度可控的撞壁液膜测量装置[P]. CN114323659A, 2022. (已授权)
[3] 李雪松,许敏,肖迪,邱舒怿,徐宏昌,王森,袁志远,一种厚度、温度可控的撞壁液膜标定装置[P]. CN114088252A, 2022. (已公开)
[4] 李雪松,许敏,张亦嘉,王上宁,高粲,罗徐霖,荀港,龚水成,邱舒怿,张伟旋,傅锦泓,税昀昊,薛灏,一种乘用车全周期碳排放量与减碳经济性评估模型及方法[P]. CN116402235A, 2023. (已公开)